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Target Concepts:
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Query: UMLS:C0027960 (
mole
)
21,279
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We assessed dispersal and vicariant events in four species of Japanese moles in the genera Mogera and Euroscaptor to better understand the factors shaping intra- and interspecific differentiation in Japanese moles. We used the combined viewpoints of molecular phylogeny and historical geology using nucleotide sequences of mitochondrial (cytochrome b;
Cytb
) and nuclear (A2ab, Bmp4, Tcf25, vWf) genes. The divergence times estimated from the molecular data were verified with available geological data on the chronology of fluctuations in sea level in the Korea Strait, assuming sequential migration and speciation events. This produced possible migration times of 5.6, 3.5, 2.4, and 1.3 million years ago for four species of Japanese moles, Euroscaptor mizura, Mogera tokudae, M. imaizumii, and M. wogura, respectively. For the western Japanese
mole
M. wogura,
Cytb
sequences revealed four major phylogroups with strong geographic affinities in southwestern Central Honshu (I), western Honshu/Shikoku (II), Kyushu/westernmost Honshu (III), and Korea/Russian Primorye (IV). The nuclear gene sequences supported the distinctiveness of phylogroups I and IV, indicating long, independent evolutionary histories. In contrast, phylogroups II and III were merged into a single geographic group based on the nuclear gene data. Intraspecific divergences in M. imaizumii and M. tokudae were rather apparent in
Cytb
but not in nuclear gene sequences. The results suggest that repeated dispersal events have occurred between the Asian continent and the Japanese Islands, and intensive vicariant events associated with abiotic and biotic factors have created higher levels of species and genetic diversities in moles occurring on the Japanese Islands.
...
PMID:Spatial and temporal aspects of occurrence of Mogera species in the Japanese islands inferred from mitochondrial and nuclear gene sequences. 2353 37
The Gansu
mole
Scapanulus oweni belongs to family Talpidae, and is distributed in the Central and Southwest China. In this study, the total mitochondrial genome of S. oweni was firstly determined. The genome is 16,826 bases in length and contains 13 protein-coding genes, 22 transfer RNA genes, 2 ribosomal RNA genes and a displacement loop region, with a base composition of A 34.0%, G 13.5%, T 28.7% and C 23.9%. All of the protein-coding genes initiate with the orthodox ATG start codon execpt for Nd2 and Nd3 begin with ATT, Nd4 and Nd5, start with GTG and ATA, respectively. Four types of stop codons are used by the coding genes, including TAA for Nd1, Cox1, Cox2, Atp8, Atp6, Nd4L, Nd5, Nd6, TAG for Nd2, AGA for
Cytb
, and an incomplete stop codon T for Cox3, Nd3 and Nd4. The mito-genomic data of Gansu
mole
, S. oweni will be useful in determining its taxonomic status within Talpidae.
...
PMID:Description of the mitogenome of Gansu mole (Scapanulus oweni). 2539 Oct 35
Zokor (Myospalacinae) is one of the subterranean rodents, endemic to east Asia. Due to the convergent and parallel evolution induced by its special lifestyles, the controversies in morphological classification of zokor appeared at the level of family and genus. To resolve these controversies about taxonomy and phylogeny, the phylogenetic relationships of 20 species of Muroidea and six species of zokors were studied based on complete mitochondrial genome and mitochondrial
Cytb
gene, respectively. Phylogeny analysis of 20 species of Muroidea indicated that the zokor belonged to the family Spalacidae, and it was closer to
mole
rat rather than bamboo rat. Besides, by investigating the phylogenetic relationships of six species of zokors, the status of two genera of
Eospalax
and
Myospalax
was affirmed because the two clades differentiated in phylogenetic tree represented two types of zokors, convex occiput type and flat occiput type, respectively. In addition, the two origins in
Eospalax
were found diverged at 3.71 million years ago (Ma) based on estimation of divergence time. It is suggested that the climate and ecology changes caused by the Qinghai-Tibet Plateau uplift event in 3.6 Ma led to the inner divergence of
Eospalax
. The intraspecific phylogenetic relationships of partial zokors were well resolved, the two clades of
Eospalax cansus
represented two geographical populations, respectively, and the divergent pattern of
Eospalax baileyi
was characterized by allopatric divergence spatially. In this study, we explored the taxonomic status and phylogenetic relationships of Myospalacinae at the molecular level. These works would be significant to understanding the evolutionary process and to clarify the mechanism of differentiation of Myospalacinae.
...
PMID:Taxonomy and phylogenetic relationship of zokors. 3248 27
